Abstract
Adventitious root formation is a crucial developmental process in the clonal propagation of economically significant horticultural and woody species. This process is antagonistically regulated by auxin and cytokinin, yet the underlying molecular regulatory mechanisms remain poorly understood. In this study, we investigated the role of PagARF3.1, a homolog of Arabidopsis auxin response factor 3, in hybrid poplar (Populus alba × Populus glandulosa clone cv. '84K'), focusing on its involvement in adventitious root formation. GUS staining analysis revealed that PagARF3.1 was expressed in adventitious root tips, pericycle cells, early root primordia, and outgrowing roots. Knockdown of PagARF3.1 delayed adventitious root formation and reduced root biomass in transgenic plants, whereas overexpression of PagARF3.1 promoted earlier rooting and increased the number of adventitious roots. Real-time quantitative polymerase chain reaction analysis indicated that the expression levels of PagIPT5a and PagIPT5b were significantly elevated in PagARF3.1 RNAi lines and reduced in overexpression lines. Yeast one-hybrid assays and ChIP-PCR analysis demonstrated that PagARF3.1 directly binds to the promoter regions of PagIPT5a and PagIPT5b, thereby regulating their expression. These findings collectively demonstrate that PagARF3.1 acts as a positive regulator of adventitious root formation by repressing IPT-mediated cytokinin biosynthesis.